Method, related device and system for searching for ss block

ABSTRACT

Embodiments of the present disclosure provide a method, a related device and a system for searching for a Synchronization Signal Block (SS block). The method includes: receiving detection configuration information of the SS block transmitted by a network device; and searching for the SS block according to the detection configuration information.

CROSS-REFERENCE TO RELATED APPLICATION

This application a continuation of U.S. patent application Ser. No.16/625,423 which is the U.S. national phase of PCT Application No.PCT/CN2018/091034 filed on Jun. 13, 2018, which claims the benefit andpriority of Chinese Application No. 201710474320.4, filed on Jun.21,2017, which is incorporated herein by reference in its entirety.

TECHNICAL FIELD

The present disclosure relates to the field of communicationtechnologies, and in particular to a method, a related device and asystem for searching for a Synchronization Signal Block (SS block).

BACKGROUND

In a communication system (for example, the 5G system), in order torealize a user equipment's initial access and radio resource management(RRM) measurement, a network device is required to transmit asynchronization signal block (SS block), which may also be referred toas physical channel block, for the user equipment to perform measurementevaluation. A plurality of SS blocks form a Synchronization Signal burst(SS burst), and a plurality of SS bursts form a Synchronization Signalburst set (SS burst set).

Currently, the user equipment searches for the SS block according to thedefault SS burst set period (20 milliseconds). Due to the large span offrequency bands of New Radio (NR), the user equipment may have toperform a full-band search to determine a working carrier of a cell andthen continue to perform the SS block search on the carrier. It can beseen that the efficiency of searching for the SS block by the userequipment in the related art is relatively low.

SUMMARY

According to a first aspect, one embodiment of the present disclosureprovides a method for searching for a synchronization signal block (SSblock), which is applied to user equipment, including:

receiving detection configuration information of the SS blocktransmitted by a network device; and

searching for the SS block according to the detection configurationinformation.

According to a second aspect, one embodiment of the present disclosureprovides a method for searching for a synchronization signal block (SSblock), which is applied to a network device, including:

obtaining detection configuration information of the SS block; and

transmitting the detection configuration information to user equipment,wherein the detection configuration information is used by the userequipment to search for the SS block according to the detectionconfiguration information.

According to a third aspect, one embodiment of the present disclosureprovides user equipment including:

a receiving module configured to receive detection configurationinformation of a Synchronization Signal Block (SS block) transmitted bya network device; and

a searching module configured to search for the SS block according tothe detection configuration information.

According to a fourth aspect, one embodiment of the present disclosureprovides a network device, including:

an obtaining module configured to obtain detection configurationinformation of a Synchronization Signal Block (SS block); and

a transmission module configured to transmit the detection configurationinformation to user equipment, wherein the detection configurationinformation is used by the user equipment to search for the SS blockaccording to the detection configuration information.

According to a fifth aspect, one embodiment of the present disclosureprovides a user equipment, including: a processor, a memory, a networkinterface and a user interface. The processor, the memory, the networkinterface and the user interface are coupled together by a bus system,the processor is configured to read a program in the memory to performsteps in the method for searching for a synchronization signal block (SSblock), which is applied to the user equipment.

According to a sixth aspect, one embodiment of the present disclosureprovides a network device including: a processor, a memory, atransceiver and a user interface. The processor, the memory, thetransceiver and the user interface are coupled together by a bus system,and the processor is configured to read a program in the memory toperform steps in the method for searching for a synchronization signalblock (SS block), which is applied to the network device.

According to a seventh aspect, one embodiment of the present disclosureprovides a system for searching for a Synchronization Signal Block (SSblock), including the user equipment and the network device.

According to an eighth aspect, one embodiment of the present disclosureprovides a computer readable storage medium including a search programof a Synchronization Signal Block (SS block) stored therein. The searchprogram of the SS block is executed by a processor to implement steps ofthe method for searching for a synchronization signal block (SS block),which is applied to the user equipment.

According to a ninth aspect, one embodiment of the present disclosureprovides a computer readable storage medium including a search programof a Synchronization Signal Block (SS block) stored therein. The searchprogram of the SS block is executed by a processor to implement steps ofthe method for searching for a synchronization signal block (SS block),which is applied to the network device.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to illustrate technical solutions according to embodiments ofthe present disclosure more clearly, drawings to be used in thedescription of the embodiments will be described briefly hereinafter.Apparently, the drawings described hereinafter are only some embodimentsof the present disclosure, and other drawings may be obtained by thoseskilled in the art according to those drawings without creative work.

FIG. 1 is a structural diagram of a system for searching for an SS blockaccording to an embodiment of the present disclosure;

FIG. 2 is a flowchart of a method for searching for an SS blockaccording to an embodiment of the present disclosure;

FIG. 3 is a flowchart of another method for searching for an SS blockaccording to an embodiment of the present disclosure;

FIG. 4 is a flowchart of another method for searching for an SS blockaccording to an embodiment of the present disclosure;

FIG. 5 is a flowchart of another method for searching for an SS blockaccording to an embodiment of the present disclosure;

FIG. 6 is a flowchart of another method for searching for an SS blockaccording to an embodiment of the present disclosure;

FIG. 7 is a structural diagram of a user equipment according to anembodiment of the present disclosure;

FIG. 8 is a structural diagram of a user equipment according to anotherembodiment of the present disclosure;

FIG. 9 is a structural diagram of a network device according to anembodiment of the present disclosure;

FIG. 10 is a structural diagram of a user equipment according to anotherembodiment of the present disclosure; and

FIG. 11 is a structural diagram of a network device according to anotherembodiment of the present disclosure.

DETAILED DESCRIPTION

The technical solutions in the embodiments of the present disclosure areclearly and completely described in the following with reference to theaccompanying drawings in the embodiments of the present disclosure. Itis obvious that the described embodiments are a part of the embodimentsof the present disclosure, and not all of the embodiments. All otherembodiments obtained by a person of ordinary skill in the art based onthe embodiments of the present disclosure without departing from theinventive scope are the scope of the disclosure.

Referring to FIG. 1, FIG. 1 is a structural diagram of a system forsearching for an SS block according to an embodiment of the presentdisclosure. As shown in FIG. 1, the system includes a user equipment(UE) 11 and a network device 12. The user equipment 11 may be a terminaldevice, e.g., a mobile phone, a Tablet Personal Computer, a LaptopComputer, a personal digital assistant (PDA), a Mobile Internet Device(MID), or a Wearable Device. It should be noted that, in the embodimentsof the present disclosure, specific type of the user equipment 11 is notlimited. The user equipment 11 can establish communication with thenetwork device 12. In the network shown in the attached figure, the userequipment 11 can establish wireless communication with the networkdevice 12. The network device 12 may be a Transmission Reception Point(TRP) or a base station. The base station may be a macro station, suchas, LTE eNB, 5G NR NB. The network device 12 may also be an Access Point(AP).

It should be noted that, in the embodiments of the present disclosure,specific type of the network device 12 is not limited. The specificfunctions of the user equipment 11 and the network device 12 will bedescribed in details with the following embodiments.

Referring to FIG. 2, FIG. 2 is a flowchart of a method for searching foran SS block according to an embodiment of the present disclosure. Asshown in FIG. 2, this method is applied to a user equipment and includesthe following steps.

Step 201: receiving detection configuration information of an SS blocktransmitted by a network device.

The above detection configuration information may be configurationinformation which is used to assist the user equipment to search for theSS block. For example, the detection configuration information may befrequency information of a carrier where the SS block is located,location information of the SS block, detection information of asynchronization Signal (SS) sequence in the SS block, or detectioninformation of a Physical Broadcast Channel (PBCH) of the SS block,which is not limited in this embodiment of the present disclosure.

Step 202: searching for the SS block according to the detectionconfiguration information.

The searching for the SS block according to the detection configurationinformation may include: determining location of the SS block orfrequency of the carrier where the SS block is located according to thedetection configuration information, and then searching for the SS blockat the corresponding location, thereby improving the efficiency ofsearching for the SS block. In addition, searching for the SS block maybe referred to as SS block blind detection, so that the above steps canreduce the time of the SS block blind detection and save powerconsumption of the user equipment. In addition, the network device sendsthe detection configuration information to the user equipment, so thatthe user equipment can search for the SS block according to thedetection configuration information, thereby improving the efficiency ofsearching for the SS block by the user equipment. For example, thenetwork device may be a primary carrier network device, the above SSblock is an SS block of a secondary carrier and the above detectionconfiguration information includes an SS burst set period, then the userequipment can search for the SS block on the secondary carrier accordingto the actual SS burst set period. This can solve limitation to thefrequency at which the secondary carrier network device sends the SSblock, caused by that the user equipment searches for the SS block onthe secondary carrier according to the default SS burst set period, andsupport the secondary carrier network device to configure a larger SSburst set period according to needs, so as to save power consumption ofthe secondary carrier network device.

It should be noted that the foregoing method may be applied to the 5G orLTE evolved communication system.

In this embodiment, the detection configuration information of the SSblock sent by the network device is received, and the SS block issearched according to the detection configuration information. Since theuser equipment searches for the SS block according to the detectionconfiguration information, the efficiency of searching for the SS blockcan be improved, thereby reducing time of the SS block blind detectionand saving the power consumption of the user equipment.

Referring to FIG. 3, FIG. 3 is a flowchart of another method forsearching for an SS block according to an embodiment of the presentdisclosure. As shown in FIG. 3, this method is applied to a userequipment and includes the following steps.

Step 301: receiving detection configuration information of an SS blocktransmitted by a network device.

Step 302: searching for the SS block according to the detectionconfiguration information.

Optionally, the foregoing detection configuration information includesat least one of the following:

frequency information of carrier and SS block auxiliary information.

The carrier is a carrier where the SS block is located, that is, the SSblock is transmitted on the carrier. In addition, in the scenario wherethe user equipment is in dual connectivity, such as Long Term Evolution(LTE) and NR dual connection, or in NR multi-carrier scenario, theforegoing carrier may also be a secondary carrier. Of course, in somescenarios, the foregoing carrier may also be a primary carrier, which isnot limited in this embodiment of the present disclosure.

In addition, the foregoing frequency information may represent afrequency range of the foregoing carrier. The foregoing SS blockauxiliary information may be related information which is used to assistthe user equipment in searching for the SS block in the carrier.

In this embodiment, the searching for the SS block according to thedetection configuration information, may include:

determining frequency of the carrier according to the frequencyinformation, and searching for the SS block at the frequency; or,

searching for frequency of the carrier, and searching for the SS blockat the frequency according to the SS block auxiliary information; or,

determining frequency of the carrier according to the frequencyinformation, and searching for the SS block at the frequency accordingto the SS block auxiliary information.

The frequency of the carrier may be a frequency range of the carrier.Through the foregoing steps, the user equipment can quickly search forthe SS block.

In addition, if the carrier is the secondary carrier, the receivingdetection configuration information of the SS block transmitted by thenetwork device, may include:

receiving the detection configuration information of the SS blocktransmitted by a primary carrier network device.

The searching for the SS block according to the detection configurationinformation, includes:

searching for the SS block on a corresponding secondary carrieraccording to the detection configuration information.

In this implementation manner, the detection configuration informationof the SS block of the secondary carrier is obtained through the primarycarrier network device, so that the user equipment quickly searches forthe SS block of the corresponding secondary carrier. For example, afterthe user equipment accesses the primary carrier network device, theprimary carrier network device can send the detection configurationinformation of the SS block of the secondary carrier to the userequipment, so that the user equipment can quickly search for the SSblock of the corresponding secondary carrier. In this embodiment, sincethe primary carrier network device sends the detection configurationinformation of the secondary carrier to the user equipment, it cansupport the secondary carrier network device to configure a larger SSburst set period according to needs, thereby saving the powerconsumption of the secondary carrier network device.

Optionally, the receiving the detection configuration information of theSS block transmitted by the primary carrier network device, includes:

receiving high layer signaling transmitted by the primary carriernetwork device, where the high layer signaling includes the detectionconfiguration information of the SS block.

In this implementation manner, the detection configuration informationcan be transmitted through the high layer signaling, so that thesignaling overhead can be reduced. The foregoing high layer signalingmay be Radio Resource Control (RRC) signaling or other high layersignaling, which is not limited in this embodiment of the presentdisclosure. Besides, the detection configuration information may betransmitted through user terminal dedicated signaling.

Optionally, the foregoing secondary carrier is an NR carrier, and theprimary carrier network device is an LTE network device; or,

the secondary carrier is an NR secondary component carrier, and theprimary carrier network device is an NR network device.

In this embodiment, the detection configuration information of thesecondary carrier is transmitted by the LTE network device in the LTE-NRdual connectivity scenario. Besides, in the NR multi-carrier scenario,the detection configuration information of the secondary carrier istransmitted by the NR network device corresponding to the primarycarrier. The carrier aggregation (CA) or the dual connectivity (DC) modemay be used between the primary carrier and the secondary carrier in theNR multi-carrier scenario.

Optionally, the SS block auxiliary information includes at least one ofthe following:

Location information of the SS block, detection information of an SSsequence, and detection information of PBCH.

In this implementation manner, the location of the SS block can bedetermined according to the SS block auxiliary information, the SSsequence can be quickly detected according to the detection informationof the SS sequence, and a PBCH signal can be quickly detected accordingto the detection information of the PBCH, thereby further improving theefficiency of searching for the SS block by the user equipment. Inaddition, in the embodiment of the present disclosure, the SS blockauxiliary information includes, but not limited to, one or more of thelocation information of the SS block, the detection information of theSS sequence and the detection information of the PBCH, and may furtherinclude other information, which are not limited in the embodiment ofthe present disclosure. In addition, the SS sequence may include aPrimary Synchronization Signal (PSS) sequence and/or a SecondarySynchronization Signal (SSS) sequence.

Optionally, the location information of the SS block includes at leastone of the following:

time domain location information of the SS block, frequency domainlocation information of the SS block, and numerology of the carrierwhere the SS block is located.

The detection information of the SS sequence includes a cell identifier.

The detection information of the PBCH includes at least one of thefollowing:

power difference between De Modulation Reference Signal (DMRS) of thePBCH and the Secondary Synchronization Signal (SSS), DMRS sequence ofthe PBCH, and phase offset of the DMRS sequence.

The time domain location information of the SS block may be used toindicate time domain location of the SS block. The frequency domainlocation information of the SS block may be used to indicate a frequencylocation of the SS block in the frequency of the carrier, for example, afrequency location for transmission of the SS burst or frequencylocation for transmission of the SS block. The numerology of the carrierwhere the SS block is located, may be used to indicate parameterconfiguration of the carrier.

In addition, the cell identifier may be a cell identifier used togenerate the SS sequence, for example, a Physical Cell Identifier(PCID). The detection information of the SS sequence may also bereferred to as related information of the SS sequence. The DMRS of thePBCH may be a DMRS for demodulating a PBCH signal, and the PBCH signalcan be accurately and quickly detected by the user equipment through thedetection information of the PBCH. Further, the detection information ofthe PBCH may also be referred to as related information of the PBCH.

Optionally, the time domain location information of the SS blockincludes at least one of the following:

SS burst set period, location offset of the SS block, location of the SSblock in the SS burst set, quantity of SS blocks in the SS burst set,and duration of SS burst in the SS burst set.

The location offset of the SS block includes a slot offset of the SSblock or a subframe offset of the SS block.

The numerology of the carrier where the SS block is located includes atleast one of the following:

Subcarrier Spacing (SCS) and Cyclic Prefix (CP) length.

The slot offset may indicate that from which slot of one cycle, thetransmission of the SS block starts. The subframe offset may indicatethat from which subframe of one cycle, the transmission of the SS blockstarts. The duration of SS burst may indicate a quantity of symbolsoccupied by the SS burst.

Through the time domain location information of the SS block, the userequipment can accurately and quickly search for the SS block.

In addition, through the above numerology, the user equipment canaccurately acquire relevant configuration of the carrier, therebyfacilitating for searching for the SS block.

Optionally, the foregoing method may further include the followingsteps:

Step 303: measuring and reading system information on the carrier wherethe SS block is located.

The carrier may be a secondary carrier, and the step 303 may include:after the frequency of the carrier is determined according to thedetection configuration information, measuring and reading systeminformation on the carrier.

Description will be described hereinafter with an example of the LTE-NRdual connectivity scenario, in which the LTE carrier is the primarycarrier, the NR carrier is the secondary carrier, and the user equipmentis a Non-Standalone (NSA) terminal. As shown in FIG. 4, the followingsteps are included.

Step 401: an NSA terminal searches an LTE carrier, and selects to accessan LTE carrier base station.

Step 402: the LTE base station transmits detection configurationinformation of an NR secondary carrier to the NSA terminal in form ofRRC signaling.

Step 403: the NSA terminal analyzes the detection configurationinformation of the NR secondary carrier, determines frequency of the NRsecondary carrier, and searches for an SS block in a correspondingposition of the NR carrier according to SS block auxiliary information.

Step 404: the NSA terminal measures and reads system information on theNR secondary carrier.

Description will be described hereinafter with an example of an NRmulti-carrier network, in which both of the primary carrier and thesecondary carrier are NR carriers, the carrier aggregation (CA) or thedual connectivity (DC) mode is used between the primary carrier and thesecondary carrier, and the user equipment is a non-independent (NSA)terminal. As shown in FIG. 5, the following steps are included.

Step 501: an NSA terminal searches an NR primary component carrier, andselects an NR primary component carrier base station to access;

Step 502: the NR primary component carrier base station transmitsdetection configuration information of an NR secondary component carrierto the NSA terminal in form of RRC signaling.

Step 503: the NSA terminal analyzes the detection configurationinformation of the NR secondary component carrier, determines frequencyof the NR secondary component carrier, and searches for an SS block in acorresponding position of the NR secondary component carrier accordingto the SS block auxiliary information.

Step 504: the NSA terminal measures and reads system information on theNR secondary component carrier.

Referring to FIG. 6, FIG. 6 is a flowchart of another method forsearching for an SS block according to an embodiment of the presentdisclosure. As shown in FIG. 6, this method is applied to a networkdevice and includes the following steps.

Step 601: obtaining detection configuration information of an SS block.

The foregoing detection configuration information may refer to thecorresponding description of the embodiment shown in FIG. 2 and FIG. 3,which will not be elaborated herein with the same beneficial effectsbeing achieved.

Step 602: transmitting the detection configuration information to a userequipment, where the detection configuration information is used by theuser equipment to search for the SS block according to the detectionconfiguration information.

The user equipment searching for the SS block may refer to thecorresponding description of the embodiment shown in FIG. 2 and FIG. 3,which will not be elaborated herein with the same beneficial effectsbeing achieved. In addition, the frequency at which the network devicetransmits the SS block, can be reduced, and then the power consumptionof the network device can be saved.

In addition, in the embodiment of the present disclosure, the foregoingdetection configuration information may be generated by the networkdevice, or may be received by the network device from a secondarycarrier network device, which is not limited in this embodiment of thepresent disclosure.

Optionally, the detection configuration information includes at leastone of the following:

frequency information of carrier and SS block auxiliary information.

The detection configuration information may refer to the correspondingdescription of the embodiment shown in FIG. 3, which will not beelaborated herein with the same beneficial effects being achieved.

Optionally, the detection configuration information is used by the userequipment to determine frequency of the carrier according to thefrequency information and search for the SS block at the frequency; or,

the detection configuration information is used by the user equipment tosearch for frequency of the carrier, and search for the SS block at thefrequency according to the SS block auxiliary information; or,

the detection configuration information is used by the user equipment todetermine frequency of the carrier according to the frequencyinformation and search for the SS block at the frequency according tothe SS block auxiliary information.

The detection configuration information may refer to the correspondingdescription of the embodiment shown in FIG. 3, which will not beelaborated herein with the same beneficial effects being achieved.

Optionally, the carrier is a secondary carrier, and the network deviceis a primary carrier network device.

The detection configuration information is used by the user equipment tosearch for the SS block on a corresponding secondary carrier accordingto the detection configuration information.

The secondary carrier and the primary carrier network device may referto the corresponding description of the embodiment shown in FIG. 3,which will not be elaborated herein with the same beneficial effectsbeing achieved.

Optionally, transmitting the detection configuration information to theuser equipment, includes:

transmitting high layer signaling to the user equipment, where the highlayer signaling includes the detection configuration information of theSS block.

The transmission of the detection configuration information through thehigh layer signaling may refer to the corresponding description of theembodiment shown in FIG. 3, which will not be elaborated herein with thesame beneficial effects being achieved.

Optionally, the secondary carrier is an NR carrier, and the primarycarrier network device is an LTE network device; or,

the secondary carrier is an NR secondary component carrier, and theprimary carrier network device is an NR network device.

The secondary carrier may refer to the corresponding description of theembodiment shown in FIG. 3, which will not be elaborated herein with thesame beneficial effects being achieved.

Optionally, the SS block auxiliary information includes at least one ofthe following:

Location information of the SS block, detection information of an SSsequence, and detection information of PBCH.

The SS block auxiliary information may refer to the correspondingdescription of the embodiment shown in FIG. 3, which will not beelaborated herein with the same beneficial effects being achieved.

Optionally, the location information of the SS block includes at leastone of the following:

time domain location information of the SS block, frequency domainlocation information of the SS block, and numerology of the carrierwhere the SS block is located.

The detection information of the SS sequence includes a cell identifier.

The detection information of the PBCH includes at least one of thefollowing:

power difference between De Modulation Reference Signal (DMRS) of thePBCH and the Secondary Synchronization Signal (SSS), DMRS sequence ofthe PBCH, and phase offset of the DMRS sequence.

The SS block auxiliary information may refer to the correspondingdescription of the embodiment shown in FIG. 3, which will not beelaborated herein with the same beneficial effects being achieved.

Optionally, the time domain location information of the SS blockincludes at least one of the following:

SS burst set period, location offset of the SS block, location of the SSblock in the SS burst set, quantity of SS blocks in the SS burst set,and duration of SS burst in the SS burst set.

The location offset of the SS block includes a slot offset of the SSblock or a subframe offset of the SS block.

The numerology of the carrier where the SS block is located includes atleast one of the following:

Subcarrier Spacing (SCS) and Cyclic Prefix (CP) length.

The SS block auxiliary information may refer to the correspondingdescription of the embodiment shown in FIG. 3, which will not beelaborated herein with the same beneficial effects being achieved.

In this embodiment, the detection configuration information istransmitted to the user equipment, so that the user equipment can searchfor the SS block according to the detection configuration information.Since the user equipment searches for the SS block according to thedetection configuration information, the efficiency of searching for theSS block can be improved. In addition, the frequency at which thenetwork device transmits the SS block, can be reduced, and then thepower consumption of the network device can be saved.

Referring to FIG. 7, FIG. 7 is a structural diagram of a user equipmentaccording to an embodiment of the present disclosure. As shown in FIG.7, the user equipment 700 includes:

a receiving module 701 configured to receive detection configurationinformation of an SS block transmitted by a network device;

a searching module 702 configured to search for the SS block accordingto the detection configuration information.

Optionally, the detection configuration information includes at leastone of the following:

frequency information of carrier and SS block auxiliary information.

Optionally, the searching module 702 is specifically configured todetermine frequency of the carrier according to the frequencyinformation and search for the SS block at the frequency; or,

the searching module 702 is specifically configured to search forfrequency of the carrier and search for the SS block at the frequencyaccording to the SS block auxiliary information; or,

the searching module 702 is specifically configured to determinefrequency of the carrier according to the frequency information, andsearch for the SS block at the frequency according to the SS blockauxiliary information.

Optionally, the carrier is a secondary carrier, and the receiving module701 is specifically configured to receive the detection configurationinformation of the SS block transmitted by a primary carrier networkdevice.

The searching module 702 is specifically configured to search for the SSblock on a corresponding secondary carrier according to the detectionconfiguration information.

Optionally, the receiving module 701 is specifically configured toreceive high layer signaling transmitted by the primary carrier networkdevice, where the high layer signaling includes the detectionconfiguration information of the SS block.

Optionally, the secondary carrier is an NR carrier, and the primarycarrier network device is an LTE network device; or,

the secondary carrier is an NR secondary component carrier, and theprimary carrier network device is an NR network device.

Optionally, the SS block auxiliary information includes at least one ofthe following:

Location information of the SS block, detection information of an SSsequence, and detection information of PBCH.

Optionally, the location information of the SS block includes at leastone of the following:

time domain location information of the SS block, frequency domainlocation information of the SS block, and numerology of the carrierwhere the SS block is located.

The detection information of the SS sequence includes a cell identifier.

The detection information of the PBCH includes at least one of thefollowing:

power difference between De Modulation Reference Signal (DMRS) of thePBCH and the Secondary Synchronization Signal (SSS), DMRS sequence ofthe PBCH, and phase offset of the DMRS sequence.

Optionally, the time domain location information of the SS blockincludes at least one of the following:

SS burst set period, location offset of the SS block, location of the SSblock in the SS burst set, quantity of SS blocks in the SS burst set,and duration of SS burst in the SS burst set.

The location offset of the SS block includes a slot offset of the SSblock or a subframe offset of the SS block.

The numerology of the carrier where the SS block is located includes atleast one of the following:

Subcarrier Spacing (SCS) and Cyclic Prefix (CP) length.

Optionally, as shown in FIG. 8, the user equipment 700 further includes:

a measuring module 703 configured to measure and read system informationon a carrier where the SS block is located.

It should be noted that, the user equipment 700 in this embodiment maybe the user equipment in any method embodiment of the presentdisclosure, and any implementation manner of the user equipment in themethod embodiment of the present disclosure may be implemented by theuser equipment 700 in this embodiment with the same beneficial effectsbeing achieved, which will not be elaborated herein.

Referring to FIG. 9, FIG. 9 is a structural diagram of a network deviceaccording to an embodiment of the present disclosure. As shown in FIG.9, the network device 900 includes:

an obtaining module 901 configured to obtain detection configurationinformation of an SS block;

a transmission module 902 configured to transmit the detectionconfiguration information to a user equipment, where the detectionconfiguration information is used by the user equipment to search forthe SS block according to the detection configuration information.

Optionally, the detection configuration information includes at leastone of the following:

frequency information of carrier and SS block auxiliary information.

Optionally, the detection configuration information is used by the userequipment to determine frequency of the carrier according to thefrequency information and search for the SS block at the frequency; or,

the detection configuration information is used by the user equipment tosearch for frequency of the carrier, and search for the SS block at thefrequency according to the SS block auxiliary information; or,

the detection configuration information is used by the user equipment todetermine frequency of the carrier according to the frequencyinformation and search for the SS block at the frequency according tothe SS block auxiliary information.

Optionally, the carrier is a secondary carrier, and the network deviceis a primary carrier network device.

The detection configuration information is used by the user equipment tosearch for the SS block on a corresponding secondary carrier accordingto the detection configuration information.

Optionally, the transmission module 902 is specifically configured totransmit high layer signaling to the user equipment, where the highlayer signaling includes the detection configuration information of theSS block.

Optionally, the secondary carrier is an NR carrier, and the primarycarrier network device is an LTE network device; or,

the secondary carrier is an NR secondary component carrier, and theprimary carrier network device is an NR network device.

Optionally, the SS block auxiliary information includes at least one ofthe following:

Location information of the SS block, detection information of an SSsequence, and detection information of PBCH.

Optionally, the location information of the SS block includes at leastone of the following:

time domain location information of the SS block, frequency domainlocation information of the SS block, and numerology of the carrierwhere the SS block is located.

The detection information of the SS sequence includes a cell identifier.

The detection information of the PBCH includes at least one of thefollowing:

power difference between De Modulation Reference Signal (DMRS) of thePBCH and the Secondary Synchronization Signal (SSS), DMRS sequence ofthe PBCH, and phase offset of the DMRS sequence.

Optionally, the time domain location information of the SS blockincludes at least one of the following:

SS burst set period, location offset of the SS block, location of the SSblock in the SS burst set, quantity of SS blocks in the SS burst set,and duration of SS burst in the SS burst set.

The location offset of the SS block includes a slot offset of the SSblock or a subframe offset of the SS block.

The numerology of the carrier where the SS block is located includes atleast one of the following:

Subcarrier Spacing (SCS) and Cyclic Prefix (CP) length.

It should be noted that, the network device 900 in this embodiment maybe the network device in any method embodiment of the presentdisclosure, and any implementation manner of the network device in themethod embodiment of the present disclosure may be implemented by thenetwork device 900 in this embodiment with the same beneficial effectsbeing achieved, which will not be elaborated herein.

Referring to FIG. 10, FIG. 10 is a structural diagram of a userequipment according to another embodiment of the present disclosure. Asshown in FIG. 10, the user equipment 1000 includes: at least oneprocessor 1001, a memory 1002, at least one network interface 1004, anda user interface 1003. Each component within the user equipment 1000 maybe coupled through a bus system 1005. It may be understood that, the bussystem 1005 is configured to implement connection communications amongthese components. In addition to data bus, the bus system 1005 furtherincludes a power bus, a control bus and a status signal bus. However,for clarity of description, various buses in FIG. 10 are labeled as thebus system 1005.

The user interface 1003 may include a display device, a keyboard, or aclicking device (e.g., a mouse, a track ball, a touch pad, or a touchscreen, and so on).

It may be understood that, in the embodiment of the present disclosure,the memory 1002 may be a transitory memory, or a non-transitory memory,or may include both of a transitory memory and a non-transitory memory.The non-transitory memory may be a Read-Only Memory (ROM), aProgrammable ROM (PROM), an Erasable PROM (EPROM), an Electrically EPROM(EEPROM) or a flash memory. The transitory-memory may be a Random AccessMemory (RAM), which is taken as an external cache. By way ofillustration and not limitation, many forms of RAM are available, e.g.,a Static RAM (SRAM), a Dynamic RAM (DRAM), a Double Data Rate SDRAM(DDRSDRAM), an Enhanced SDRAM (ESDRAM), a Synchlink DRAM (SLDRAM) and aDirect Rambus RAM (DRRAM). The memory 1002 of the system and methoddescribed herein is intended to include, without limitation to, theseand any other suitable types of memory.

In some embodiments, the memory 1002 includes the following elements,executable modules, or data structures, or their subset, or theirextension set: an Operating System (OS) 10021 and an application 10022.

The OS 10021 includes various system programs, such as, a frame layer, acore library layer, a driver layer, and so on, which are configured toimplement various basic services and process hardware-based tasks. Theapplication 10022 includes various applications, e.g., a Media Player, aBrowser, and so on, which are configured to implement variousapplication services. The program implementing the method in theembodiment of the present disclosure may be included by the application10022.

In the embodiment of the present disclosure, by calling the program orinstruction stored in the memory 1002, specifically, the program orinstruction stored by the application 1002, the processor 1001 isconfigured to:

receive detection configuration information of an SS block transmittedby a network device; and

search for the SS block according to the detection configurationinformation.

Foregoing methods provided by the embodiment of the present disclosuremay be applied to the processor 1001, or may be implemented by theprocessor 1001. The processor 1001 may be an integrated circuit chipwith signal processing capability. In the implementation process,various blocks of foregoing method may be completed, by using theintegrated logic circuit of hardware in the processor 1001, or by usinginstructions in the form of software. Foregoing processor 1001 may be ageneral processor, a Digital Signal Processor (DSP), an ApplicationSpecific Integrated Circuit (ASIC), a Field Programmable Gate Array(FPGA), or other programmable logic devices, discrete gates ortransistor logic devices, discrete hardware components. Each method,block and logical block diagram in the embodiments of the applicationmay be implemented, or executed. The general processor may be amicro-processor, or any conventional processor, and so on. Combiningwith method blocks in the embodiments of the present disclosure, it maybe directly implemented by a hardware decoding processor, or may beexecuted by a combination of hardware and software modules in thedecoding processor. Software modules may be located in a mature storagemedium in the field, such as, an RAM, a flash memory, an ROM, a PROM, anelectrically erasable programmable memory, a register. The storagemedium is located in the memory 1002, the processor 1001 readsinformation in the memory 1002, and completes foregoing method blocks incombination with the hardware.

It may be understood that, these embodiments described in theapplication may be implemented by hardware, software, firmware,middleware, microcode, or a combination thereof. For hardwareimplementation, a processing unit may be implemented in one or moreASICs, DSPs, DSP Devices (DSPDs), Programmable Logic Device (PLDs),FPGAs, general processors, controllers, micro-controllers,micro-processors, other electronic units or combinations thereof forperforming the functions described in the application.

For software implementation, the techniques described in the applicationmay be implemented by modules (e.g., procedures, functions, etc.) thatperform the functions of the application. Software codes may be storedin the memory, and executed by the processor. The memory may beimplemented in the processor or external to the processor.

Optionally, the detection configuration information includes at leastone of the following:

frequency information of carrier and SS block auxiliary information.

Optionally, searching for the SS block according to the detectionconfiguration information, that is performed by the processor 1001,includes:

determining frequency of the carrier according to the frequencyinformation, and searching for the SS block at the frequency; or,

searching for frequency of the carrier, and searching for the SS blockat the frequency according to the SS block auxiliary information; or,

determining frequency of the carrier according to the frequencyinformation, and searching for the SS block at the frequency accordingto the SS block auxiliary information.

Optionally, the carrier is a secondary carrier. The receiving detectionconfiguration information of the SS block transmitted by the networkdevice, that is performed by the processor 1001, includes:

receiving the detection configuration information of the SS blocktransmitted by a primary carrier network device.

The searching for the SS block according to the detection configurationinformation, that is performed by the processor 1001, includes:

searching for the SS block on a corresponding secondary carrieraccording to the detection configuration information.

Optionally, the receiving the detection configuration information of theSS block transmitted by the primary carrier network device, that isperformed by the processor 1001, includes:

receiving high layer signaling transmitted by the primary carriernetwork device, where the high layer signaling includes the detectionconfiguration information of the SS block.

Optionally, the secondary carrier is an NR carrier, and the primarycarrier network device is an LTE network device; or,

the secondary carrier is an NR secondary component carrier, and theprimary carrier network device is an NR network device.

Optionally, the SS block auxiliary information includes at least one ofthe following:

Location information of the SS block, detection information of an SSsequence, and detection information of PBCH.

Optionally, the location information of the SS block includes at leastone of the following:

time domain location information of the SS block, frequency domainlocation information of the SS block, and numerology of the carrierwhere the SS block is located.

The detection information of the SS sequence includes a cell identifier.

The detection information of the PBCH includes at least one of thefollowing:

power difference between De Modulation Reference Signal (DMRS) of thePBCH and the Secondary Synchronization Signal (SSS), DMRS sequence ofthe PBCH, and phase offset of the DMRS sequence.

Optionally, the time domain location information of the SS blockincludes at least one of the following:

SS burst set period, location offset of the SS block, location of the SSblock in the SS burst set, quantity of SS blocks in the SS burst set,and duration of SS burst in the SS burst set.

The location offset of the SS block includes a slot offset of the SSblock or a subframe offset of the SS block.

The numerology of the carrier where the SS block is located includes atleast one of the following:

Subcarrier Spacing (SCS) and Cyclic Prefix (CP) length.

Optionally, after searching for the SS block according to the detectionconfiguration information, the processor 1001 is further configured to:

measure and read system information on the carrier where the SS block islocated.

It should be noted that, the user equipment 1000 in this embodiment maybe the user equipment in any method embodiment of the presentdisclosure, and any implementation manner of the user equipment in themethod embodiment of the present disclosure may be implemented by theuser equipment 1000 in this embodiment with the same beneficial effectsbeing achieved, which will not be elaborated herein.

Referring to FIG. 11, FIG. 11 is a structural diagram of a networkdevice according to another embodiment of the present disclosure. Asshown in FIG. 11, the network device 1100 includes: a processor 1101, atransceiver 1102, a memory 1103, a user interface 1104, and a businterface.

The processor 1101 is configured to read a program in the memory 1103and perform the following process:

obtaining detection configuration information of an SS block;

transmitting the detection configuration information to a userequipment, where the detection configuration information is used by theuser equipment to search for the SS block according to the detectionconfiguration information.

The transceiver 1102 is configured to receive and transmit data underthe control of the processor 1101, and the transceiver 1102 includes atleast two antenna ports.

In FIG. 11, the bus architecture may include any number ofinterconnected buses and bridges. Specifically, one or more processorsrepresented by the processor 1001 and various circuits of memoryrepresented by the memory 1003 are linked together. The bus architecturecan also link various other circuits, such as peripherals, voltageregulators, and power management circuits, as is known in the art.Therefore, it will not be further described. The bus interface providesan interface. The transceiver 1002 may be multiple components, includinga transmitter and a receiver, providing units for communicating withvarious other devices on a transmission medium. For different userequipment, the user interface 1104 may also be an interface capable ofexternally connecting required devices, including but not limited to akeypad, a display device, a speaker, a microphone, a joystick, and thelike.

The processor 1101 is responsible for managing the bus architecture andgeneral processing, and the memory 1103 can store data used by theprocessor 1101 when performing operations.

Optionally, the detection configuration information includes at leastone of the following:

frequency information of carrier and SS block auxiliary information.

Optionally, the detection configuration information is used by the userequipment to determine frequency of the carrier according to thefrequency information and search for the SS block at the frequency; or,

the detection configuration information is used by the user equipment tosearch for frequency of the carrier, and search for the SS block at thefrequency according to the SS block auxiliary information; or,

the detection configuration information is used by the user equipment todetermine frequency of the carrier according to the frequencyinformation and search for the SS block at the frequency according tothe SS block auxiliary information.

Optionally, the carrier is a secondary carrier, and the network deviceis a primary carrier network device.

The detection configuration information is used by the user equipment tosearch for the SS block on a corresponding secondary carrier accordingto the detection configuration information.

Optionally, transmitting the detection configuration information to theuser equipment, that is performed by the processor 1101, includes:

transmitting high layer signaling to the user equipment, where the highlayer signaling includes the detection configuration information of theSS block.

Optionally, the secondary carrier is an NR carrier, and the primarycarrier network device is an LTE network device; or,

the secondary carrier is an NR secondary component carrier, and theprimary carrier network device is an NR network device.

Optionally, the SS block auxiliary information includes at least one ofthe following:

Location information of the SS block, detection information of an SSsequence, and detection information of PBCH.

Optionally, the location information of the SS block includes at leastone of the following:

time domain location information of the SS block, frequency domainlocation information of the SS block, and numerology of the carrierwhere the SS block is located.

The detection information of the SS sequence includes a cell identifier.

The detection information of the PBCH includes at least one of thefollowing:

power difference between De Modulation Reference Signal (DMRS) of thePBCH and the Secondary Synchronization Signal (SSS), DMRS sequence ofthe PBCH, and phase offset of the DMRS sequence.

Optionally, the time domain location information of the SS blockincludes at least one of the following:

SS burst set period, location offset of the SS block, location of the SSblock in the SS burst set, quantity of SS blocks in the SS burst set,and duration of SS burst in the SS burst set.

The location offset of the SS block includes a slot offset of the SSblock or a subframe offset of the SS block.

The numerology of the carrier where the SS block is located includes atleast one of the following:

Subcarrier Spacing (SCS) and Cyclic Prefix (CP) length.

It should be noted that, the network device 1100 in this embodiment maybe the network device in any method embodiment of the presentdisclosure, and any implementation manner of the network device in themethod embodiment of the present disclosure may be implemented by thenetwork device 1100 in this embodiment with the same beneficial effectsbeing achieved, which will not be elaborated herein.

One embodiment of the present disclosure further provides a computerreadable storage medium, which stores a search program of the SS block.The search program of the SS block is executed by the processor toimplement steps of the method for searching for SS block on the userequipment according to the embodiment of the present disclosure.

One embodiment of the present disclosure further provides a computerreadable storage medium, which stores a search program of the SS block.The search program of the SS block is executed by the processor toimplement steps of the method for searching for SS block on the networkdevice according to the embodiment of the present disclosure.

Persons having ordinary skill in the art may learn that, units andalgorithm blocks of each example described by embodiments of theapplication may be implemented in electronic hardware, or in acombination of computer software and electronic hardware. Whether thesefunctions are performed by hardware or software depends on specificapplication and design constraints of technical solutions. For eachspecific application, a person skilled in the art may adopt a differentmethod to implement the described functions. However, suchimplementation should not be considered to go beyond the scope of theapplication.

Persons having ordinary skill in the art may clearly learn that, forconvenience and conciseness of description, the specific working processof above-described system, device and unit may refer to correspondingprocess of foregoing method embodiments, which is not repeated here.

In the embodiments of the application, it should be understood that, thedisclosed devices and methods may be implemented with other methods. Forexample, the above-described device embodiments are only illustrative,e.g., the division of the unit is only a logic function division. Inpractical implementation, there may be another division method. Forexample, multiple units or components may be combined, or integratedinto another system, or some features may be omitted, or not executed.From another point, the mutual coupling or direct coupling, orcommunication connection shown or discussed may be indirect coupling, orcommunication connections through some interfaces, devices, or units,which may be electronic, mechanical, or in other form.

Units described as separate components may be, or may be not physicallyseparate. A component displayed as a unit may be, or may be not aphysical unit, that is, it may be located in one place, or may bedistributed to multiple network units. According to practicalrequirements, some units or all the units may be selected to implementthe objective of solutions in the embodiments of the application.

In addition, in each embodiment of the present disclosure, variousfunctional units may be integrated into a processing unit.Alternatively, each unit physically exists alone. Still alternatively,two or more units may be integrated into one unit.

When the functions are implemented in the form of software functionalunit, which is sold or used as an independent product, such softwarefunctional unit may be stored in a computer readable storage medium.Based on such understandings, the technical solution of the presentdisclosure, or, a part contributing to the related art, or a part of thetechnical solution may be embodied in the form of a software product.The computer software produce is stored in one storage medium, includingseveral instructions to enable a computer device (may be a PersonalComputer (PC), a server, or a network device, etc.) to implement all theblocks, or some blocks in the method of each embodiment of the presentdisclosure. Foregoing storage medium includes various media that canstore program codes, such as a U disk, a mobile hard disk, an ROM, anRAM, a disk, or a Compact Disk (CD), and so on.

Foregoing is only specific implementations of the application. However,protection scope of the application is not limited. Any changes orsubstitutions that are obvious to those skilled in the art within thescope of the application are covered by the scope of the application.Therefore, the protection scope of the disclosure should be determinedby the scope of the claims.

What is claimed is:
 1. A user equipment, comprising: a processor, amemory, a network interface and a user interface; wherein the processor,the memory, the network interface and the user interface are coupledtogether by a bus system, the processor is configured to read a programin the memory to perform: receiving detection configuration informationof the SS block transmitted by a network device; and searching for theSS block according to the detection configuration information.
 2. Theuser equipment of claim 1, wherein the detection configurationinformation comprises at least one of the following: frequencyinformation of carrier and SS block auxiliary information.
 3. The userequipment of claim 2, wherein when searching for the SS block accordingto the detection configuration information, the processor is configuredto read the program in the memory to perform: determining frequency ofthe carrier according to the frequency information, and searching forthe SS block at the frequency; or, searching for frequency of thecarrier, and searching for the SS block at the frequency according tothe SS block auxiliary information; or, determining frequency of thecarrier according to the frequency information, and searching for the SSblock at the frequency according to the SS block auxiliary information.4. The user equipment of claim 3, wherein the carrier is a secondarycarrier; when receiving detection configuration information of the SSblock transmitted by a network device, the processor is configured toread the program in the memory to perform: receiving the detectionconfiguration information of the SS block transmitted by a primarycarrier network device; and when searching for the SS block according tothe detection configuration information, the processor is configured toread the program in the memory to perform: searching for the SS block ona corresponding secondary carrier according to the detectionconfiguration information.
 5. The user equipment of claim 4, whereinwhen receiving the detection configuration information of the SS blocktransmitted by a primary carrier network device, the processor isconfigured to read the program in the memory to perform: receiving highlayer signaling transmitted by the primary carrier network device,wherein the high layer signaling comprises the detection configurationinformation of the SS block.
 6. The user equipment of claim 4, whereinthe secondary carrier is a new radio (NR) carrier, and the primarycarrier network device is a long term evolution (LTE) network device;or, the secondary carrier is an NR secondary component carrier, and theprimary carrier network device is an NR network device.
 7. The userequipment of claim 2, wherein the SS block auxiliary informationcomprises at least one of the following: location information of the SSblock, detection information of an SS sequence, and detectioninformation of Physical Broadcast Channel (PBCH).
 8. The user equipmentof claim 7, wherein the location information of the SS block comprisesat least one of the following: time domain location information of theSS block, frequency domain location information of the SS block, andnumerology of the carrier where the SS block is located; the detectioninformation of the SS sequence comprises a cell identifier; thedetection information of the PBCH comprises at least one of thefollowing: power difference between De Modulation Reference Signal(DMRS) of the PBCH and the Secondary Synchronization Signal (SSS), DMRSsequence of the PBCH, and phase offset of the DMRS sequence.
 9. The userequipment of claim 8, wherein the time domain location information ofthe SS block comprises at least one of the following: SS burst setperiod, location offset of the SS block, location of the SS block in theSS burst set, quantity of SS blocks in the SS burst set, and duration ofSS burst in the SS burst set; the location offset of the SS blockcomprises a slot offset of the SS block or a subframe offset of the SSblock; the numerology of the carrier where the SS block is locatedcomprises at least one of the following: subcarrier Spacing (SCS) andcyclic Prefix (CP) length.
 10. The user equipment of claim 1, whereinafter the searching for the SS block according to the detectionconfiguration information, the processor is further configured to readthe program in the memory to perform: measuring and reading systeminformation on the carrier where the SS block is located.
 11. A networkdevice, comprising: a processor, a memory, a transceiver and a userinterface; wherein the processor, the memory, the transceiver and theuser interface are coupled together by a bus system, and the processoris configured to read a program in the memory to perform: obtainingdetection configuration information of the SS block; and transmittingthe detection configuration information to user equipment, wherein thedetection configuration information is used by the user equipment tosearch for the SS block according to the detection configurationinformation.
 12. The network device of claim 11, wherein the detectionconfiguration information comprises at least one of the following:frequency information of carrier and SS block auxiliary information. 13.The network device of claim 12, wherein the detection configurationinformation is used by the user equipment to determine frequency of thecarrier according to the frequency information and search for the SSblock at the frequency; or, the detection configuration information isused by the user equipment to search for frequency of the carrier, andsearch for the SS block at the frequency according to the SS blockauxiliary information; or, the detection configuration information isused by the user equipment to determine frequency of the carrieraccording to the frequency information, and search for the SS block atthe frequency according to the SS block auxiliary information.
 14. Thenetwork device of claim 13, wherein the carrier is a secondary carrier,and the network device is a primary carrier network device; thedetection configuration information is used by the user equipment tosearch for the SS block on a corresponding secondary carrier accordingto the detection configuration information.
 15. The network device ofclaim 14, wherein when transmitting the detection configurationinformation to user equipment, the processor is configured to read theprogram in the memory to perform: transmitting high layer signaling tothe user equipment; wherein the high layer signaling comprises thedetection configuration information of the SS block; or, wherein thesecondary carrier is a new radio (NR) carrier, and the primary carriernetwork device is a long term evolution (LTE) network device; or, thesecondary carrier is an NR secondary component carrier, and the primarycarrier network device is an NR network device.
 16. The network deviceof claim 12, wherein the SS block auxiliary information comprises atleast one of the following: location information of the SS block,detection information of an SS sequence, and detection information ofPhysical Broadcast Channel (PBCH).
 17. The network device of claim 16,wherein the location information of the SS block comprises at least oneof the following: time domain location information of the SS block,frequency domain location information of the SS block, and numerology ofthe carrier where the SS block is located; the detection information ofthe SS sequence comprises a cell identifier; the detection informationof the PBCH comprises at least one of the following: power differencebetween De Modulation Reference Signal (DMRS) of the PBCH and theSecondary Synchronization Signal (SSS), DMRS sequence of the PBCH, andphase offset of the DMRS sequence.
 18. The network device of claim 17,wherein the time domain location information of the SS block comprisesat least one of the following: SS burst set period, location offset ofthe SS block, location of the SS block in the SS burst set, quantity ofSS blocks in the SS burst set, and duration of SS burst in the SS burstset; the location offset of the SS block comprises a slot offset of theSS block or a subframe offset of the SS block; the numerology of thecarrier where the SS block is located comprises at least one of thefollowing: subcarrier Spacing (SCS) and Cyclic Prefix (CP) length.
 19. Acomputer readable storage medium comprising a search program of aSynchronization Signal Block (SS block) stored therein; wherein thesearch program of the SS block is executed by a processor to implement:receiving detection configuration information of the SS blocktransmitted by a network device; and searching for the SS blockaccording to the detection configuration information.
 20. The computerreadable storage medium of claim 19, wherein the detection configurationinformation comprises at least one of the following: frequencyinformation of carrier and SS block auxiliary information.